Difference between revisions of "STROKE-RECOVERY REORGANISATION MECHANISMS"
(Imported from text file) |
(Imported from text file) |
||
(2 intermediate revisions by 2 users not shown) | |||
Line 1: | Line 1: | ||
===== [[Summary Article|'''SUMMARY''']] ===== | ===== [[Summary Article|'''SUMMARY''']] ===== | ||
1. Recruitment of the motor networks of the ipsilateral, unaffected parts of the hemisphere<ref>Cramer SC. Functional magnetic resonance imaging in stroke recovery. Phys Med Rehabil Clin N Am 2003;14:S47-55.</ref>. Persistent ipsilateral cortical involvement is generally assoc. with larger strokes & poorer recovery. | 1. Recruitment of the motor networks of the ipsilateral, unaffected parts of the hemisphere<ref>Cramer SC. Functional magnetic resonance imaging in stroke recovery. Phys Med Rehabil Clin N Am 2003;14:S47-55.</ref> | ||
<br/>. Persistent ipsilateral cortical involvement is generally assoc. with larger strokes & poorer recovery. | |||
<br/> | <br/> | ||
<br/>2. Reorganization in response to training occurs along the cortical rim of the infarction with increased recruitment of secondary cortical areas such as supplementary motor area and pre-motor cortex in the contralateral (to the affected) hemisphere<ref>Cramer SC. Functional magnetic resonance imaging in stroke recovery. Phys Med Rehabil Clin N Am 2003;14:S47-55.</ref> | <br/>2. Reorganization in response to training occurs along the cortical rim of the infarction with increased recruitment of secondary cortical areas such as supplementary motor area and pre-motor cortex in the contralateral (to the affected) hemisphere<ref>Cramer SC. Functional magnetic resonance imaging in stroke recovery. Phys Med Rehabil Clin N Am 2003;14:S47-55.</ref> |
Latest revision as of 02:29, 21 March 2023
SUMMARY
1. Recruitment of the motor networks of the ipsilateral, unaffected parts of the hemisphere[1]
. Persistent ipsilateral cortical involvement is generally assoc. with larger strokes & poorer recovery.
2. Reorganization in response to training occurs along the cortical rim of the infarction with increased recruitment of secondary cortical areas such as supplementary motor area and pre-motor cortex in the contralateral (to the affected) hemisphere[2]
.
3. Reorganisation of cortex post stroke is dependent on the lesion site but also on remote brain areas with structural connections with the damaged area of the brain.
Reference(s)
Wilkinson, I., Furmedge, D. and Sinharay, R. (2017). Oxford handbook of clinical medicine. Oxford: Oxford University Press. Get it on Amazon.
Feather, A., Randall, D. and Waterhouse, M. (2020). Kumar And Clark’s Clinical Medicine. 10th ed. S.L.: Elsevier Health Sciences. Get it on Amazon.
Hannaman, R. A., Bullock, L., Hatchell, C. A., & Yoffe, M. (2016). Internal medicine review core curriculum, 2017-2018. CO Springs, CO: MedStudy.
Therapeutic Guidelines. Melbourne: Therapeutic Guidelines Limited. https://www.tg.org.au [Accessed 2021].